BackgroundVenous sinus stenting (VSS) is a safe, effective, and increasingly popular treatment option for selected patients with idiopathic intracranial hypertension (IIH). Serious complications associated with VSS are rarely reported.MethodsSerious complications after VSS were identified retrospectively from multicenter databases. The cases are presented and management strategies are discussed.ResultsSix major acute and chronic complications after VSS were selected from a total of 811 VSS procedures and 1466 venograms for IIH. These included an acute subdural hematoma from venous extravasation, cases of both intraprocedural and delayed stent thrombosis, an ultimately fatal cerebellar hemorrhage resulting in acute obstructive hydrocephalus, venous microcatheter perforation during venography and manometry, and a patient who developed subarachnoid hemorrhage and subdural hematoma after cerebellar cortical vein perforation. The six cases are reviewed and learning points regarding complication avoidance and management are presented.ConclusionWe report on six rare, major complications after VSS for IIH. Familiarity with these potential complications and appropriate timely management may allow for good clinical outcomes.
Islet transplantation is emerging as a therapeutic option for type 1 diabetes, albeit, only a small number of patients meeting very stringent criteria are eligible for the treatment because of the side effects of the necessary immunosuppressive therapy and the relatively short time frame of normoglycemia that most patients achieve. The challenge of the immune‐suppressive regimen can be overcome through microencapsulation of the islets in a perm‐selective coating of alginate microbeads with poly‐l‐lysine or poly‐ l‐ornithine. In addition to other issues including the nutrient supply challenge of encapsulated islets a critical requirement for these cells has emerged as the need to engineer the microenvironment of the encapsulation matrix to mimic that of the native pancreatic scaffold that houses islet cells. That microenvironment includes biological and mechanical cues that support the viability and function of the cells. In this study, the alginate hydrogel was modified to mimic the pancreatic microenvironment by incorporation of extracellular matrix (ECM). Mechanical and biological changes in the encapsulating alginate matrix were made through stiffness modulation and incorporation of decellularized ECM, respectively. Islets were then encapsulated in this new biomimetic hydrogel and their insulin production was measured after 7 days in vitro. We found that manipulation of the alginate hydrogel matrix to simulate both physical and biological cues for the encapsulated islets enhances the mechanical strength of the encapsulated islet constructs as well as their function. Our data suggest that these modifications have the potential to improve the success rate of encapsulated islet transplantation.
BACKGROUND AND PURPOSE: Maintaining carotid patency and avoiding symptomatic intracranial hemorrhage are competing concerns in tandem occlusions. This study provides data regarding the safety and efficacy of eptifibatide in stroke from tandem occlusion of the extracranial carotid artery and the intracranial carotid or middle cerebral artery.MATERIALS AND METHODS: This is a retrospective analysis of 58 consecutive patients who received low-dose eptifibatide (135mcg/kg bolus, 1-mcg/kg/min infusion) during treatment of tandem occlusions. Brain imaging and carotid sonography were performed at 24-36 hours. mRS was documented at 90 days, and carotid sonography, at 30-60 days. RESULTS:The median age and NIHSS score were 64 years and 15, respectively. Twenty-five patients (43%) received tPA. ASPECTSs were 8-10 in 47 (81%) and 5-7 in 11 (19%) patients. Thirty-eight patients had angioplasty/stent placement acutely; 20 had angioplasty alone. Symptomatic intracranial hemorrhage occurred in 1 patient (2%). TICI 2b or higher was achieved in 56 patients (96%). Fiftyseven of 58 patients had clinical follow-up at 90 days (1 lost to follow up). The 90-day mRS was 0-2 in 42 patients (72%). There were 4/58 (7%) re-occlusions within 24-36 hours, all originally treated with stent placement. Forty-nine of 53 surviving patients had carotid sonography at 30-60 days, with 3 delayed re-occlusions, 2 with stents and 1 with angioplasty alone. The overall carotid patency at 30-60 days was 42/49 (86%). Carotid re-occlusion was not associated with clinical decline.CONCLUSIONS: Low-dose eptifibatide seemed to be safe in tandem occlusions (symptomatic intracranial hemorrhage, 2%), although asymptomatic cervical carotid artery re-occlusions still occurred in 14% of patients.
BackgroundCarotid artery stenting (CAS) is a procedure for stroke prevention, usually done from femoral artery access. Reports of CAS using radial artery access have adopted techniques similar to those used for transfemoral CAS. Initial experience with a simpler and lower profile technique for transradial carotid stenting is described here.MethodsOf 55 consecutive elective CAS cases with standard (not bovine) arch anatomy performed during a 15 month time period by the same operator, 20 were selected for transradial treatment using a 6 F Simmons 2 guide catheter. This was a retrospective analysis of those initial 20 patients compared with the 35 patients treated with elective transfemoral CAS. The CAS database was reviewed for clinical indications, technique, procedure and fluoroscopy times, and clinical outcomes.ResultsAll procedures were technically successful (no crossovers). No patient had a decline in National Institutes of Health Stroke Scale score or modified Rankin Scale score within 30 days. Mean (95% CI) procedural times for transradial CAS were slightly higher than transfemoral CAS (29.4 (26.0 to 32.7) vs 23.8 (21.2 to 26.4) min, p=0.0098). Mean (95% CI) fluoroscopy times were also higher for transradial CAS compared with transfemoral CAS (9.6 (8.0 to 11.2) vs 6.4 (5.4 to 7.4), p=0.0006). One patient developed a radial artery pseudoaneurysm which required elective surgical repair.ConclusionTransradial carotid stenting using the described lower profile technique provides another effective option in the array of surgical procedures for the treatment of carotid artery stenosis. Relative procedural and fluoroscopy times may initially be longer compared with transfemoral carotid stenting for experienced CAS operators, although absolute differences are small.
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